`j      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~None.      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~None!"+23468<=KU%(Internal) Class that implements the JOIN x magic (see )).+(Internal) Class that implements the tuple x magic (see )).0Different kinds of locking clauses supported by ;.iNote that each RDBMS has different locking support. The constructors of this datatype specify only the syntax$ of the locking mechanism, not its  semantics?. For example, even though both MySQL and PostgreSQL support :, there are no guarantees that they will behave the same. Since: 2.2.7LOCK IN SHARE MODE syntax. Supported by MySQL. Since: 2.2.7 FOR SHARE" syntax. Supported by PostgreSQL. Since: 2.2.7 FOR UPDATE5 syntax. Supported by MySQL, Oracle and PostgreSQL. Since: 2.2.7Phantom type used by  insertSelect.Phantom type for a SET0 operation on an entity of the given type (see k and '(=.)').Phantom type used by 6 and 7. Phantom type used by 0, 1 and 2. ((Internal) Phantom type used to process x (see )). Exception thrown whenever . is used to create an ON clause but no matching JOIN is found. E(Internal) Functions that operate on types (that should be) of kind . (Internal)  smartJoin a b is a JOIN of the correct kind.(Internal) Reify a JoinKind from a JOIN . This function is non-strict.(Internal) A kind of JOIN. FULL OUTER JOIN RIGHT OUTER JOIN LEFT OUTER JOIN  CROSS JOIN  INNER JOINData type that represents a FULL OUTER JOIN (see  for an example).Data type that represents a RIGHT OUTER JOIN (see  for an example).Data type that represents a LEFT OUTER JOIN. For example,  select $ x $ \(person `'LeftOuterJoin`` pet) -> ... is translated into /SELECT ... FROM Person LEFT OUTER JOIN Pet ...  See also: x.Data type that represents a  CROSS JOIN (see  for an example).Data type that represents an  INNER JOIN (see  for an example). uA class of things that can be converted into a list of SomeValue. It has instances for tuples and is the reason why / can take tuples, like / (foo > FooId, foo > FooName, foo > FooType)."A wrapper type for for any expr (Value a) for all a.$hA list of single values. There's a limited set of functions able to work with this data type (such as d, f, g and i).&=A single value (as opposed to a whole entity). You may use (>) or (?) to get a & from an ?.("Finally tagless representation of  esqueleto's EDSL.)(Internal) Start a x query with an entity. x does two kinds of magic using ), + and ,: >The simple but tedious magic of allowing tuples to be used.$The more advanced magic of creating JOIN s. The JOINB is processed from right to left. The rightmost entity of the JOIN is created with ) . Each JOIN( step is then translated into a call to +. In the end, ,! is called to materialize the JOIN.*(Internal) Same as ), but entity may be missing.+(Internal) Do a JOIN.,(Internal) Finish a JOIN.-WHERE% clause: restrict the query's result..ON clause: restrict the a JOIN's result. The ON clause will be applied to the last JOIN that does not have an ON clause yet. If there are no JOIN s without ON+ clauses (either because you didn't do any JOIN, or because all JOINs already have their own ON clauses), a runtime exception   is thrown. ON! clauses are optional when doing JOINs.%On the simple case of doing just one JOIN , for example  select $ x $ \(foo  `'InnerJoin`` bar) -> do . (foo > FooId H bar > BarFooId) ... Pthere's no ambiguity and the rules above just mean that you're allowed to call .; only once (as in SQL). If you have many joins, then the .s are applied on the reverse order that the JOINs appear. For example:  select $ x $ \(foo  `'InnerJoin`` bar  `'InnerJoin`` baz) -> do . (baz > BazId H bar > BarBazId) . (foo > FooId H bar > BarFooId) ...  The order is reversed; in order to improve composability. For example, consider query1 and query2 below: let query1 = x $ \(foo  `'InnerJoin`` bar) -> do . (foo > FooId H bar > BarFooId) query2 = x $ \(mbaz `'LeftOuterJoin`#` quux) -> do return (mbaz ?f BazName, quux) test1 = (,) <$> query1 <*> query2 test2 = flip (,) <$> query2 <*> query1 If the order was not reversed, then test2 would be broken: query1's . would refer to query2's ./GROUP BY6 clause. You can enclose multiple columns in a tuple.  select $ x \(foo  `'InnerJoin`` bar) -> do . (foo > FooBarId H bar > BarId) / (bar > BarId, bar > BarName) return (bar > BarId, bar > BarName, countRows) DWith groupBy you can sort by aggregate functions, like so (we used let to restrict the more general E to SqlExpr (Value Int)) to avoid ambiguity---the second use of E has its type restricted by the :: Int below): r <- select $ x \(foo  `'InnerJoin`` bar) -> do . (foo > FooBarId H bar > BarId) / $ bar > BarName let countRows' = E 0 [1 countRows'] return (bar >" BarName, countRows') forM_ r $ \(& name, &2 count) -> do print name print (count :: Int) 0ORDER BY clause. See also 1 and 2.Multiple calls to 01 get concatenated on the final query, including 8.1,Ascending order of this field or expression.2-Descending order of this field or expression.3LIMIT%. Limit the number of returned rows.4OFFSET. Usually used with 3.5DISTINCT. Change the current SELECT into SELECT DISTINCT. For example: select $ distinct $ x \foo -> do ... (Note that this also has the same effect:  select $ x) \foo -> do distinct (return ()) ...  Since: 2.2.46 DISTINCT ON. Change the current SELECT into  SELECT DISTINCT ON (expressions). For example:  select $ x \foo -> 6 [7 (foo ^. FooName), 7 (foo ^. FooState)] $ do ... &You can also chain different calls to 6. The above is equivalent to:  select $ x \foo -> 6 [7 (foo ^. FooName)] $ 6 [7 (foo ^. FooState)] $ do ...  Each call to 6# adds more expressions. Calls to 6 override any calls to 5.1Note that PostgreSQL requires the expressions on  DISTINCT ON% to be the first ones to appear on a ORDER BYi. This is not managed automatically by esqueleto, keeping its spirit of trying to be close to raw SQL.Supported by PostgreSQL only. Since: 2.2.47@Erase an expression's type so that it's suitable to be used by 6. Since: 2.2.48'A convenience function that calls both 6 and 0. In other words, 8+ [asc foo, desc bar, desc quux] $ do ... is the same as: 6' [don foo, don bar, don quux] $ do 0' [asc foo, desc bar, desc quux] ...  Since: 2.2.49ORDER BY random() clause. Since: 1.3.10:HAVING. Since: 1.2.2;1Add a locking clause to the query. Please read % documentation and your RDBMS manual.If multiple calls to ;3 are made on the same query, the last one is used. Since: 2.2.7<Execute a subquery SELECTL in an expression. Returns a simple value so should be used only when the SELECT- query is guaranteed to return just one row.=Same as < but using SELECT DISTINCT.>Project a field of an entity.?.Project a field of an entity that may be null.@5Lift a constant value from Haskell-land to the query.AIS NULL comparison.B Analogous to , promotes a value of type typ into one of type  Maybe typ. It should hold that @ . Just === just . @.CNULL value.D Join nested s in a &O into one. This is useful when calling aggregate functions on nullable fields.ECOUNT(*) value.FCOUNT.]COALESCE function. Evaluates the arguments in order and returns the value of the first non-NULL expression, or NULL (Nothing) otherwise. Some RDBMSs (such as SQLite) require at least two arguments; please refer to the appropriate documentation. Since: 1.4.3^Like coalesceu, but takes a non-nullable expression placed at the end of the expression list, which guarantees a non-NULL result. Since: 1.4.3_LIKE operator.`ILIKE operator (case-insensitive LIKE).Supported by PostgreSQL only. Since: 2.2.3a The string a. May be useful while using _ and concatenation (b or c\, depending on your database). Note that you always to type the parenthesis, for example: name `'like` ` (%) ++. @ "John" ++. (%) bThe CONCATT function with a variable number of parameters. Supported by MySQL and PostgreSQL.cThe ||7 string concatenation operator (named after Haskell's % in order to avoid naming clash with O'). Supported by SQLite and PostgreSQL.dExecute a subquery SELECT. in an expression. Returns a list of values.eSame as sublist_select but using SELECT DISTINCT.f=Lift a list of constant value from Haskell-land to the query.gIN operator.hNOT IN operator.iEXISTS operator. For example:  select $ x $ \person -> do - $ i $ x $ \post -> do - (post > BlogPostAuthorId H person > PersonId) return person j NOT EXISTS operator.kSET clause used on UPDATEEs. Note that while it's not a type error to use this function on a SELECT4, it will most certainly result in a runtime error.qApply a B constructor to  expr Value arguments.r Apply extra  expr Value arguments to a B constructorsCASE statement. For example: select $ return $ s [ t (i $ x $ \p -> do - (p > PersonName H @ "Mike")) u (< $ x, $ \v -> do let sub = x $ \c -> do - (c > PersonName H @" "Mike") return (c > PersonFavNum) - (v > PersonFavNum >. < sub) return $ F (v > PersonName) +. @ (1 :: Int)) ] (v $ @ (-1)) LThis query is a bit complicated, but basically it checks if a person named "Mike"x exists, and if that person does, run the subquery to find out how many people have a ranking (by Fav Num) higher than "Mike".NOTE:9 There are a few things to be aware about this statement.fThis only implements the full CASE statement, it does not implement the "simple" CASE statement. At least one t and u4 is mandatory otherwise it will emit an error.The vC is also mandatory, unlike the SQL statement in which if the ELSE is omitted it will return a NULL#. You can reproduce this via C. Since: 2.1.2tSyntax sugar for s. Since: 2.1.2uSyntax sugar for s. Since: 2.1.2vSyntax sugar for s. Since: 2.1.2w Unwrap a &. Since: 1.4.1xFROM# clause: bring entities into scope.This function internally uses two type classes in order to provide some flexibility of how you may call it. Internally we refer to these type classes as the two different magics.&The innermost magic allows you to use from with the following types:expr (Entity val),, which brings a single entity into scope.expr (Maybe (Entity val))-, which brings a single entity that may be NULL into scope. Used for  OUTER JOINs.A JOINB of any other two types allowed by the innermost magic, where a JOIN may be an , a , a , a , or a . The JOINs have left fixity.&The outermost magic allows you to use fromn on any tuples of types supported by innermost magic (and also tuples of tuples, and so on), up to 8-tuples.Note that using fromz for the same entity twice does work and corresponds to a self-join. You don't even need to use two different calls to from, you may use a JOIN or a tuple.,The following are valid examples of uses of fromH (the types of the arguments of the lambda are inside square brackets): x $ \person -> ... x $ \(person, blogPost) -> ... x $ \(p `'LeftOuterJoin` ` mb) -> ... x $ \(p1  `'InnerJoin`` f  `'InnerJoin` ` p2) -> ... x $ \((p1  `'InnerJoin`` f)  `'InnerJoin` ` p2) -> ... CThe types of the arguments to the lambdas above are, respectively: person :: ( Esqueleto query expr backend , PersistEntity Person , PersistEntityBackend Person ~ backend ) => expr (Entity Person) (person, blogPost) :: (...) => (expr (Entity Person), expr (Entity BlogPost)) (p `'LeftOuterJoin`Z` mb) :: (...) => InnerJoin (expr (Entity Person)) (expr (Maybe (Entity BlogPost))) (p1  `'InnerJoin`` f  `'InnerJoin`` p2) :: (...) => InnerJoin (InnerJoin (expr (Entity Person)) (expr (Entity Follow))) (expr (Entity Person)) (p1  `'InnerJoin`` (f  `'InnerJoin`` p2)) :: :: (...) => InnerJoin (expr (Entity Person)) (InnerJoin (expr (Entity Follow)) (expr (Entity Person))) 5Note that some backends may not support all kinds of JOINs. Since: 1.4.4  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxy  !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxy()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrsx&'w$%"# !   tuv9   !"#$%&'(K)*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwx> HIJKLMNOPQRS_`clmnopNone!"&)23468<M;y1(Internal) Class for mapping results coming from  into actual results.This looks very similar to RawSqle, and it is! However, there are some crucial differences and ultimately they're different classes.z!Creates the variable part of the SELECT query and returns the list of s that will be given to .{(Number of columns that will be consumed.|1Transform a row of the result into the data type.}Create  INSERT INTO clause instead.~,(Internal) Mode of query being converted by .Phantom type used to mark a  INSERT INTO query.!An expression on the SQL backend.There are many comments describing the constructors of this data type. However, Haddock doesn't like GADTs, so you'll have to read them by hitting "Source".1Information needed to escape and use identifiers.HList of identifiers already in use and supply of temporary identifiers. Identifier used for table names.A locking clause.A LIMIT clause.A ORDER BY clause.A HAVING cause.A GROUP BY clause. A complete WHERE clause. A part of a SET clause. A part of a FROM clause.The DISTINCT "clause". DISTINCT ON, PostgreSQL extension.Only DISTINCT, SQL standard.The default, everything.Side data written by .Constraint synonym for  persistent entities whose backend is .SQL backend for  esqueleto using .Collect s on !s. Returns the first unmatched *s data on error. Returns a list without  OnClauses on success. Create a fresh . If possible, use the given c. Use an identifier.#(Internal) Create a case statement. Since: 2.1.11(Internal) Create a custom binary operator. You should not use this function directly since its type is very general, you should always use it with an explicit type signature. For example: e(==.) :: SqlExpr (Value a) -> SqlExpr (Value a) -> SqlExpr (Value Bool) (==.) = unsafeSqlBinOp " = " zIn the example above, we constraint the arguments to be of the same type and constraint the result to be a boolean value. Similar to , but may also be applied to composite keys. Uses the operator given as the second argument whenever applied to composite keys.Usage example: v(==.) :: SqlExpr (Value a) -> SqlExpr (Value a) -> SqlExpr (Value Bool) (==.) = unsafeSqlBinOpComposite " = " " AND " <Persistent has a hack for implementing composite keys (see  U doc for more details), so we're forced to use a hack here as well. We deconstruct   values based on two rules:HIf it is a single placeholder, then it's assumed to be coming from a Y and thus its components are separated so that they may be applied to a composite key.If it is not a single placeholder, then it's assumed to be a foreign (composite or not) key, so we enforce that it has no placeholders and split it on the commas.4(Internal) A raw SQL value. The same warning from " applies to this function as well.C(Internal) A raw SQL function. Once again, the same warning from " applies to this function as well.c(Internal) An unsafe SQL function to extract a subfield from a compound field, e.g. datetime. See  for warnings. Since: 1.3.6. L(Internal) A raw SQL function. Preserves parentheses around arguments. See  for warnings._(Internal) Coerce a value's type from 'SqlExpr (Value a)' to 'SqlExpr (Value b)'. You should not6 use this function unless you know what you're doing!w(Internal) Coerce a value's type from 'SqlExpr (ValueList a)' to 'SqlExpr (Value a)'. Does not work with empty lists.(Internal) Execute an  esqueleto SELECT  inside  persistent's  monad. Execute an  esqueleto SELECT query inside  persistent's  monad and return a  of rows. Execute an  esqueleto SELECT query inside  persistent's ! monad and return a list of rows.We've seen that xM has some magic about which kinds of things you may bring into scope. This f function also has some magic for which kinds of things you may bring back to Haskell-land by using SqlQuery's return:You may return a  SqlExpr (? v) for an entity v (i.e., like the *; in SQL), which is then returned to Haskell-land as just Entity v.You may return a SqlExpr (Maybe (Entity v)) for an entity v that may be NULL., which is then returned to Haskell-land as Maybe (Entity v) . Used for  OUTER JOINs.You may return a  SqlExpr (& t) for a value t" (i.e., a single column), where t is any instance of B., which is then returned to Haskell-land as Value t. You may use Value to return projections of an Entity (see (>) and (?)@) or to return any other value calculated on the query (e.g., E or <).The  SqlSelect a rR class has functional dependencies that allow type information to flow both from a to r] and vice-versa. This means that you'll almost never have to give any type signatures for  esqueleto# queries. For example, the query  $ from $ \p -> return p+ alone is ambiguous, but in the context of  do ps <-  $ xT $ \p -> return p liftIO $ mapM_ (putStrLn . personName . entityVal) ps &we are able to infer from that single personName . entityVal function composition that the p inside the query is of type SqlExpr (Entity Person). Execute an  esqueleto SELECT DISTINCT query inside  persistent's  monad and return a  of rows. Execute an  esqueleto SELECT DISTINCT query inside  persistent's ! monad and return a list of rows.(Internal) Run a  of rows.(Internal) Execute an  esqueleto statement inside  persistent's  monad. Execute an  esqueleto DELETE query inside  persistent's b monad. Note that currently there are no type checks for statements that should not appear on a DELETE query.Example of usage:  $ x $ \appointment -> - (appointment > AppointmentDate L @ now) Unlike !, there is a useful way of using Q that will lead to type ambiguities. If you want to delete all rows (i.e., no -. clause), you'll have to use a type signature:  $ x $ \(appointment ::  (? Appointment)) -> return () Same as *, but returns the number of rows affected. Execute an  esqueleto UPDATE query inside  persistent's b monad. Note that currently there are no type checks for statements that should not appear on a UPDATE query.Example of usage:  $ p -> do k p [ PersonAge l B (@ thisYear) -. p > PersonBorn ] - $ isNothing (p > PersonAge) Same as *, but returns the number of rows affected.(Internal) Pretty prints a  into a SQL query.@Note: if you're curious about the SQL query being generated by  esqueletos, instead of manually using this function (which is possible but tedious), you may just turn on query logging of  persistent.Materialize a SqlExpr (Value a). Insert a B for every selected value. Insert a B! for every unique selected value.EYou may return tuples (up to 16-tuples) and tuples of tuples from a  query.?You may return any single value (i.e. a single column) from a  query.You may return a possibly-NULL ? from a  query.You may return an ? from a  query.Not useful for , but used for  and . INSERT INTO hack.yz{|}~ !"#$%  &'()*+,-./0123456789:;<  =>?@ABC DEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~'yz{|}~'~yz{|}yz{|}~ '&  %$#"! ()*+,.-/0 123456789:;<  =>?@ABC DEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~None( array_agg&) Concatenate input values, including NULLs, into an array. Since: 2.2.8( string_agg5) Concatenate input values separated by a delimiter. Since: 2.2.8 Input values. Delimiter.Concatenation.None!"234 valkey i = @ .  ( 2https://github.com/prowdsponsor/esqueleto/issues/9).valJ is like val% but for something that is already a Value0. The use case it was written for was, given a Value lift the Key for that Valueu into the query expression in a type safe way. However, the implementation is more generic than that so we call it valJ.Its important to note that the input entity and the output entity are constrained to be the same by the type signature on the function ( 1https://github.com/prowdsponsor/esqueleto/pull/69). Since: 1.4.2 Synonym for  that does not clash with  esqueleto's .      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~ $%&'(-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxs(-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvx&'w$%         !!"#$$%%&&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~               !"#$%&'()*+,-./0102030405060708090:0;0<0=0>0?0@0A0B0C0D0E0F0G0H0HIJIKILIMIMNONPNQNRNSNTNUNVNWNXNYNZN[N\N]N^N_N`NaNbNcNdNeNeNfNgNhNhNiNjNjNkNlNmNnNoNpNqNrNsNtNuNvNwNwNxNyNzN{N|N}N~NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNEN      !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~esqueleto-2.2.8$Database.Esqueleto.Internal.LanguageDatabase.Esqueleto.Internal.SqlDatabase.Esqueleto.PostgreSQLDatabase.Esqueleto,Database.Esqueleto.Internal.PersistentImportDatabase.Persist.StoredeleteFromPreprocessFrom LockingKindLockInShareModeForShare ForUpdate InsertionUpdate DistinctOnOrderByPreprocessedFrom$OnClauseWithoutMatchingJoinException IsJoinKind smartJoin reifyJoinKindJoinKindFullOuterJoinKindRightOuterJoinKindLeftOuterJoinKind CrossJoinKind InnerJoinKind FullOuterJoinRightOuterJoin LeftOuterJoin CrossJoin InnerJoin ToSomeValues toSomeValues SomeValue ValueListValue Esqueleto fromStartfromStartMaybefromJoin fromFinishwhere_ongroupByorderByascdesclimitoffsetdistinct distinctOndondistinctOnOrderByrandhavinglocking sub_selectsub_selectDistinct^.?.val isNothingjustnothingjoinV countRowscountnot_==.>=.>.<=.<.!=.&&.||.+.-./.*.random_round_ceiling_floor_sum_min_max_avg_lower_coalescecoalesceDefaultlikeilike%concat_++.subList_selectsubList_selectDistinctvalListin_notInexists notExistsset=.+=.-=.*=./=.<#<&>case_when_then_else_unValuefrom SqlSelect sqlSelectColssqlSelectColCountsqlSelectProcessRow sqlInsertIntoMode INSERT_INTOUPDATEDELETESELECTUnsafeSqlFunctionArgumentSqlExpr IdentInfo IdentState SqlEntitySqlQueryinitialIdentState unsafeSqlCaseunsafeSqlBinOpunsafeSqlBinOpCompositeunsafeSqlValueunsafeSqlFunctionunsafeSqlExtractSubFieldveryUnsafeCoerceSqlExprValue veryUnsafeCoerceSqlExprValueListrawSelectSource selectSourceselectselectDistinctSourceselectDistinct runSource rawEsqueleto deleteCountupdate updateCounttoRawSql insertSelectinsertSelectDistinctarrayAgg stringAggvalkeyvalJ deleteKeypersistent-2.2(Database.Persist.Sql.Orphan.PersistStoreunSqlBackendKey SqlBackendKeyDatabase.Persist.SqltransactionUndotransactionSave(Database.Persist.Sql.Orphan.PersistQuerydecorateSQLWithLimitOffset fieldDBName getFieldName tableDBName getTableName fromSqlKeytoSqlKey withRawQueryDatabase.Persist.Sql.MigrationmigraterunMigrationUnsaferunMigrationSilent runMigration getMigration showMigrationprintMigrationparseMigration'parseMigrationDatabase.Persist.Sql.Runclose' withSqlConn askLogFunc createSqlPool withSqlPoolrunSqlPersistMPoolrunSqlPersistM runSqlConn runSqlPoolDatabase.Persist.Sql.RawrawSql getStmtConnrawExecuteCount rawExecute rawQueryResrawQueryDatabase.Persist.Sql.ClassrawSqlProcessRowrawSqlColCountReason rawSqlColsRawSqlsqlTypePersistFieldSqlDatabase.Persist toJsonTextDatabase.Persist.Sql.Internal mkColumnsdefaultAttributeDatabase.Persist.Sql.Types ISRSingle ISRInsertGet ISRManyKeysInsertSqlResult Connection connLogFuncconnLimitOffset connRDBMS connNoLimitconnEscapeName connRollback connCommit connBeginconnMigrateSql connClose connStmtMapconnInsertManySql connInsertSql connPrepare SqlBackendLogFunc stmtQuery stmtExecute stmtReset stmtFinalize Statement cReferencecMaxLencDefaultConstraintNamecDefaultcSqlTypecNullcNameColumnStatementAlreadyFinalizedCouldn'tGetSQLConnectionPersistentSqlException SqlPersistT SqlPersist SqlPersistMSqlCautiousMigration MigrationConnectionPoolunSingleSingle$Database.Persist.Class.PersistUnique checkUnique replaceUnique getByValue onlyUniqueinsertByupsert insertUniquedeleteBygetBy PersistUnique$Database.Persist.Class.DeleteCascade deleteCascade DeleteCascade#Database.Persist.Class.PersistQuery selectKeys#Database.Persist.Class.PersistStore insertEntity belongsToJust belongsTogetJust liftPersistpersistBackendHasPersistBackendfromBackendKey toBackendKey ToBackendKey updateGetreplacerepsert insertKeyinsertEntityMany insertMany_ insertManyinsert_insertget BackendKey PersistStore$Database.Persist.Class.PersistEntityentityIdFromJSONentityIdToJSONkeyValueEntityFromJSONkeyValueEntityToJSON fieldLenspersistUniqueToValuespersistUniqueToFieldNamespersistUniqueKeysfromPersistValuestoPersistFieldspersistFieldDef entityDefpersistIdField keyFromValues keyToValuesUnique EntityFieldKeyPersistEntityBackend PersistEntityBackendSpecificUpdate entityVal entityKeyEntity#Database.Persist.Class.PersistFieldfromPersistValuetoPersistValue PersistFieldSomePersistFieldDatabase.Persist.Types.BasefromPersistValueTexttoEmbedEntityDef entityPrimaryActiveInactive CheckmarkNullable NotNullable IsNullable ByMaybeAttrByNullableAttr WhyNullable entitySum entityExtra entityDerivesentityForeigns entityUniques entityFields entityAttrsentityIdentityDB entityHaskell EntityDef ExtraLine unHaskellName HaskellNameunDBNameDBNameAttr FTTypeConFTAppFTList FieldTypefieldReference fieldStrict fieldAttrs fieldSqlType fieldTypefieldDB fieldHaskellFieldDef NoReference ForeignRefEmbedRef CompositeRef SelfReference ReferenceDefembeddedFieldsembeddedHaskellEmbedEntityDef emFieldCycle emFieldEmbed emFieldDB EmbedFieldDef uniqueAttrs uniqueFields uniqueDBName uniqueHaskell UniqueDefcompositeAttrscompositeFields CompositeDefForeignFieldDefforeignNullable foreignAttrs foreignFieldsforeignConstraintNameDBNameforeignConstraintNameHaskellforeignRefTableDBNameforeignRefTableHaskell ForeignDef PersistErrorPersistMarshalErrorPersistInvalidFieldPersistForeignConstraintUnmetPersistMongoDBErrorPersistMongoDBUnsupportedPersistException PersistTextPersistByteString PersistInt64 PersistDoublePersistRational PersistBool PersistDayPersistTimeOfDayPersistUTCTime PersistNull PersistList PersistMapPersistObjectIdPersistDbSpecific PersistValue SqlStringSqlInt32SqlInt64SqlReal SqlNumericSqlBoolSqlDaySqlTime SqlDayTimeSqlBlobSqlOtherSqlTypeEqNeGtLtGeLeInNotIn PersistFilter KeyNotFound UpsertErrorUpdateExceptionOnlyUniqueExceptionAssignAddSubtractMultiplyDivide PersistUpdate$Database.Persist.Class.PersistConfigrunPoolcreatePoolConfigapplyEnv loadConfigPersistConfigPoolPersistConfigBackend PersistConfigbase Data.MaybeJustMaybeGHC.Base++$fFunctorValuefromPreprocessfrom_$$fFromPreprocessqueryexprbackendjoin$$fFromPreprocessqueryexprbackendexpr%$fFromPreprocessqueryexprbackendexpr0$fFromqueryexprbackend(,,,,,,,)$fFromqueryexprbackend(,,,,,,)$fFromqueryexprbackend(,,,,,)$fFromqueryexprbackend(,,,,)$fFromqueryexprbackend(,,,)$fFromqueryexprbackend(,,)$fFromqueryexprbackend(,)#$fFromqueryexprbackendFullOuterJoin$$fFromqueryexprbackendRightOuterJoin#$fFromqueryexprbackendLeftOuterJoin$fFromqueryexprbackendCrossJoin$fFromqueryexprbackendInnerJoin$fFromqueryexprbackendexpr$fFromqueryexprbackendexpr0/$fExceptionOnClauseWithoutMatchingJoinException$fIsJoinKindFullOuterJoin$fIsJoinKindRightOuterJoin$fIsJoinKindLeftOuterJoin$fIsJoinKindCrossJoin$fIsJoinKindInnerJoin$fToSomeValuesexpr(,,,,,,,)$fToSomeValuesexpr(,,,,,,)$fToSomeValuesexpr(,,,,,)$fToSomeValuesexpr(,,,,)$fToSomeValuesexpr(,,,)$fToSomeValuesexpr(,,)$fToSomeValuesexpr(,) InsertFinalIdent LockingClause LimitClause OrderByClause HavingClause GroupByClause WhereClause SetClause FromClauseDistinctClauseDistinctStandard DistinctAllSideDatacollectOnClausesOnClauseFromJoin newIdentForuseIdent ECompositeKeyERawunsafeSqlFunctionParensconduit-1.2.4.2Data.Conduit.Internal.ConduitSourcematerializeExpr$fSqlSelect(,)(,)$fSqlSelectSqlExprValue$fSqlSelectSqlExprMaybe$fSqlSelectSqlExprEntity$fSqlSelect()()$fSqlSelectSqlExprInsertFinal toArgList OrderByTypeDESCASC NeedParensNeverParens EInsertFinalEInsertEPreprocessedFromESet EDistinctOn EOrderRandomEOrderBy EEmptyListEListEMaybeEEntityinUseILimitGroupByNoWhereWhere FromStartsdDistinctClause sdFromClause sdSetClause sdWhereClausesdGroupByClausesdHavingClausesdOrderByClause sdLimitClausesdLockingClauseQunQparensM fieldNamesetAuxsub fromDBName existsHelperifNotEmptyList builderToTextuncommas intersperseB uncommas'makeInsertInto makeSelectmakeFromunexpectedCompositeKeyErrormakeSet makeWhere makeGroupBy makeHaving makeOrderBy makeLimit makeLockingparens 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